haem side quest

Question 1

sites of haematopoiesis from foetus to adult

Answer 1

starts in embryonic yolk sac –> moves to foetal liver and spleen
bone marrow takes over from 6 months gestation
after birth red marrow grad replaced by yellow marrow
ago 20+ haematopoeisis conc in axial skeleton and articular ends of femoral and humerus bones

Question 2

lifespand of normal RBC

Answer 2

120 days

Question 3

earliest morphological red cell precursor and morphology

Answer 3

proerythroblast
- high nuclear : cytoplasmic ratio
- prominent nucleoli
- blue cytoplasm (RNA present)

Question 4

from proerythroblast to reticulocyte

Answer 4

as mature = SMALLER , more condensed chromatin, loose nucleoli, cytoplasmic changes (blue—> pink)
EVENTUALLY nucleus extruded = reticulocyte

Question 5

reticulocyte –> erythrocyte

Answer 5

retic = retain some ribosomal RNA to make haemoglobin
lost 1-2 days after enter peripheral circulation = erythrocyte

Question 6

factors affacting erythropoeisis - epo

Answer 6

-made kidneys
- lack of = profound reticulocytopaenia –> seen in renal failure
- excessive ep = normal response to hypoxia or result of pathology (epo secreting tumours)
- hypoxia inducible factor = production increases when hypoxic / impaired gas exchange / increased tissue demand for O2 –> HIF stims kidney to make epo

Question 7

maturation factors eg and pathology cause

Answer 7

B12 + folate = component in DNA synthesis –> causes megaloblastic anaemia
Androgens + thryoxine = stim affect on erythropoiesis
Copper and pyridoxine = key comppenet of iron incorp in haem –> sideroblastic anaemia

Question 8

4 examples of microcytic anaemia

Answer 8

1. IDA
2. Thallassaemias
3. Inflammatory anaemia
4. Sideroblastic anaemia

Question 9

8 examples of normocytic anaemia

Answer 9

1. inflammatory anaemia
2. acute bleeding
3. marrow disease
4. renal anaemia
5. haemolysis
6. myeloma
7. sequestration
8. dilutional

iced bannanas mixed really hard makes smooth discharge

Question 10

8 examples of macrocytic causes

Answer 10

1. B12/folate
2. reticulocytosis
3. pregnancy
4. liver
5. hypothyroid
   6.MDS
6. drugs e.g. axaithroprine
7. alcohol

BORED RABBITS PLAY LIKE HYPNOTISED MONKEYS DOING ADDERRALL

Question 11

What are spherocytes on blood film and what do they suggest

Answer 11

small rbc without area of central pallor –> have lost their membrane without losing the cytosol

in haemolysis:

immune mediated
- autoimmune haemolytic anaemia
- transfusion reaction / disease of newbron/ ABO incombat

congenital = hereditary spherocytosis

Direct red cell damage:
- burns / drowning / snake venom / clostricum perfigens

Question 12

what are shistocytes and what do they suggest on blood film

Answer 12

FRAGMENTS OF RBC

TTP / haemolytic uraemic Sx , DIC

pregnancy related –> HELLP / preeclampsia / valvular haemolysis / HTN emeregency

drug induced
systemic malignancy
stem cell transplant

Question 13

what are degmacyte (bite/blister/ghost cells) and what do they indicate

Answer 13

Removal of denaturated hemoglobin inclusions (Heinz bodies) by splenic macrophages
results in one or more semicircular punches on the cell margin resembling bite marks

Indicate oxidative haemolysis:
- G6PD deficiency
- Drugs –> sulphasalzine

Question 13

what are target cells and what do they suggest on blood film

Answer 13

increased staining resulting from redundant RBC membrane in relation to its cytoplasm

(means excess cell membrane in relation to cytoplasm)

suggests = haemoglobinopathies

Question 13

what is agglutination seen on a blood film and what does it suggest

Answer 13

red blood cells clump together, forming aggregates

suggests:
cold haemagglutinin disease / paroxysmal cold haemoglobinuria

Question 14

tests to do when you think patient is haemolysing

Answer 14

1. blood film
   - see diff morphologies depending on cause
2. bilirubin
   - should be unconjugated cos prehepatic cuase
3. haptoglobin
   - protein that binds to free haemoglobin so then can be removed by reticuloendothelial system –> will be low if haemolysing as its all used up!
4. LDH
   - sensitive bu nonspecific for haemolysis (can be raised in number of conditions)

Question 15

what conditions raised LDH

Answer 15

haemolysis / acute MI / lymphoma / liver disease /

basic any condition assoc w tissue damage/ high cell turnover

Question 16

what are the steps in Ix ?haemolysis?

Answer 16

1 = is the patient haemolysing?
2 = is it immune mediated?
3 = any Hx to explain this?

Question 17

how to test if haemolysis is immune mediated

Answer 17

direct coombs test

Question 18

in immune mediated haemolysis what is relevant Hx to ask?

Answer 18

prev exposure to blood products / ati-d immune globulin / Sx of LRTI ? could be Sx of mycoplasma pneumonia!!!

and drugs –> penicillins / cephalosporins / diclofenac / methydopa

Question 19

in nonimmune mediated haemolysis what are key Hx points?

Answer 19

personal and FHx of
membrane defects –> hereditary spherocytosis / eliptocytosis
enzymopathies –> G6PD / pyruvate kinase defiecny
thalassemias / haemoglobinopathies

Question 20

what can nonimmune haemolysis be further divided into (2 categories)

Answer 20

1. congenital
2. acquired

Question 21

what is the key regulator of iron homeostasis and how does it work

Answer 21

HEPCIDIN

binds to iron transport protein ferroportin –> causes it to be internalised and degraded

ferroportin found on eneterocytes and all organs which act as iron stores (liver / BM / splenic macrophages)

action hepcidin –> reduce enteric iron absorption + promote sequestration into body compartments

Question 22

when is hepcidin transcription rates increased

Answer 22

inflamm states or when serum iron high (like overload

Question 23

when is hepcidin transcription rates reduced

Answer 23

IDA over when increased epo / hypoxia

Question 24

body iron distrubtuion

Answer 24

stored in liver / BM / splenic macrophages

signif amount also circulates as haem in Hb